- T. Alegre – University of Campinas
Micro and nano‐photonics at Unicamp
- A. Bachtold – ICFO, Barcelona
Mechanical resonators based on nanotubes and graphene
- J. Davis – University of Alberta
Force Sensing and Quantum Measurements with Cavity Opto-Mechanical Resonators
- J. Fink – Caltech
Linear and nonlinear electromechanical coupling of narrow-gapped photonic and phononic crystal cavities
- S. Groeblacher – Caltech & University of Vienna
Quantum experiments exploiting the radiation pressure force in optomechanical systems
- K. Hammerer – University of Hannover
Optomechanical entanglement and beyond
- A. Mari – Scuola Normale Superiore
Measures of quantum synchronization in continuous variable systems
- A. Nunnenkamp – University of Basel
Nonlinear optomechanics, dissipative coupling, and quantum synchronization
- M. Poot – Yale
Phase shifting, squeezing and non-Gaussian states in strongly coupled opto-electromechanical resonators
- P. Rabl – Vienna University of Technology
NV phonon interactions in diamond nanostructures
- F. Ramiro-Manzano – Università di Trento
Optomechanical actuation of microresonators vertically coupled to bus waveguides
- O. Romero-Isart – University of Innsbruck
Quantum magnetomechanics with levitang superconducng microspheres
- A. Schliesser – Niels Bohr Institute
Detecting radio waves through a nano‐electrooptomechanical transducer
- J. Teufel – NIST
Quantum Optomechanics with Microwave Photons
- E. Verhagen – AMOLF
Nanomechanical transduction using extremely confined light fields
- G. Wiederhecker – University of Campinas
Synchronization of Optomechanical Cavities